isogenous

简明释义

[aɪˈsɒdʒɪnəs][maɪˈsɑdʒɪnəs]

adj. [生物] 同源的

英英释义

Isogenous refers to organisms or cells that are genetically identical or derived from the same genetic source.

同源的指的是基因相同或来源于相同基因源的生物或细胞。

In a broader context, it can also refer to substances or structures that are similar in origin or composition.

在更广泛的语境中,它也可以指来源或成分相似的物质或结构。

单词用法

isogenous tissues

同源组织

isogenous cell lines

同源细胞系

isogenous groups

同源组

isogenous species

同源物种

同义词

homogeneous

同质的

The samples were taken from isogenous tissues to ensure consistency in the experiment.

样本来自同质组织,以确保实验的一致性。

identical

相同的

In biology, isogenous cell lines are often used for comparative studies.

在生物学中,常常使用同源细胞系进行比较研究。

similar

相似的

The researchers focused on homogeneous materials to simplify the analysis.

研究人员专注于同质材料,以简化分析。

反义词

heterogeneous

异质的

The sample was found to be heterogeneous, containing various types of cells.

样本被发现是异质的,包含多种类型的细胞。

dissimilar

不同的

The two groups were dissimilar in their genetic makeup.

这两个群体在遗传构成上是不同的。

例句

1.The cartilage cells of few isogenous groups are observed.

软骨内同源群细胞很少见。

2.Man, society and its history are isogenous.

人、社会及其历史是同源的。

3.The cartilage cells of few isogenous groups are observed.

软骨内同源群细胞很少见。

4.The experiment required isogenous 同源的 samples to ensure accurate comparison of results.

该实验需要同源的样本,以确保结果的准确比较。

5.The research focused on the development of isogenous 同源的 cell lines for better consistency in experiments.

该研究专注于开发更一致的实验用同源的细胞系。

6.In genetics, isogenous 同源的 populations can provide insights into evolutionary processes.

在遗传学中,同源的种群可以为进化过程提供见解。

7.The use of isogenous 同源的 tissues in transplantation reduces the risk of rejection.

在移植中使用同源的组织可以降低排斥反应的风险。

8.Researchers are studying isogenous 同源的 strains of bacteria to understand their behavior under different conditions.

研究人员正在研究同源的细菌株,以了解它们在不同条件下的行为。

作文

In the field of biology, particularly in genetics and developmental biology, the term isogenous refers to groups of cells or organisms that are derived from a common ancestor and share the same genetic makeup. This concept is crucial for understanding how organisms develop and evolve over time. For instance, when we study the development of tissues and organs, we often encounter isogenous groups that play a vital role in maintaining the structural integrity and functional harmony of the organism. The significance of isogenous cells can be seen in various biological processes. For example, during embryonic development, cells that are isogenous will often differentiate into specific cell types that contribute to the formation of organs. This differentiation is guided by genetic information that is conserved among these cells, allowing them to perform specialized functions while still being part of a cohesive unit. Moreover, the study of isogenous populations can also shed light on evolutionary relationships between species. By examining the genetic similarities and differences among isogenous groups, scientists can trace the lineage of organisms and understand how certain traits have been preserved or modified throughout evolution. This approach has led to significant discoveries in the field of phylogenetics, where researchers construct evolutionary trees based on genetic data. In addition to genetics, the concept of isogenous also extends to ecology. In ecosystems, populations of organisms that are isogenous may exhibit similar behaviors and interactions with their environment. For example, a group of plants that are isogenous might respond uniformly to environmental changes, such as variations in temperature or humidity, which can affect their growth and reproduction. Understanding these dynamics is essential for conservation efforts, as it helps ecologists predict how isogenous populations will respond to habitat changes and other anthropogenic pressures. Furthermore, the implications of isogenous groups reach into the realm of medicine. In regenerative medicine, researchers are exploring the potential of isogenous stem cells for therapeutic purposes. These cells, which can give rise to various tissue types, hold promise for treating injuries and degenerative diseases. By harnessing the power of isogenous stem cells, scientists aim to develop innovative treatments that could significantly improve patient outcomes. In conclusion, the term isogenous encompasses a wide range of biological phenomena, from cellular development to evolutionary relationships and ecological interactions. By studying isogenous groups, researchers gain valuable insights into the fundamental principles that govern life on Earth. As our understanding of genetics and biology continues to evolve, the importance of isogenous populations will undoubtedly remain a key area of focus, paving the way for future discoveries and advancements in science and medicine.

在生物学的领域,特别是在遗传学和发育生物学中,术语isogenous指的是一组细胞或生物,它们源自共同的祖先并共享相同的遗传构成。这个概念对于理解生物体如何随着时间的发展和进化至关重要。例如,当我们研究组织和器官的发展时,我们常常会遇到扮演维持生物体结构完整性和功能和谐的重要角色的isogenous群体。isogenous细胞的重要性可以在各种生物过程中看到。例如,在胚胎发育过程中,那些isogenous的细胞通常会分化成特定的细胞类型,促进器官的形成。这种分化是由这些细胞之间保留的遗传信息指导的,使它们能够执行专业功能,同时仍然是一个统一体的一部分。此外,研究isogenous群体也可以揭示物种之间的进化关系。通过检查isogenous群体之间的遗传相似性和差异,科学家可以追踪生物体的谱系,并了解某些特征如何在进化过程中被保留或修改。这种方法在系统发育学领域取得了重大突破,研究人员基于遗传数据构建进化树。除了遗传学,isogenous的概念还扩展到生态学。在生态系统中,isogenous的生物群体可能表现出与其环境相似的行为和互动。例如,一组isogenous植物可能会对环境变化(如温度或湿度的变化)作出统一反应,这会影响它们的生长和繁殖。了解这些动态对于保护工作至关重要,因为它有助于生态学家预测isogenous群体如何应对栖息地变化和其他人为压力。此外,isogenous群体的含义延伸到了医学领域。在再生医学中,研究人员正在探索isogenous干细胞的治疗潜力。这些细胞可以产生各种组织类型,具有治疗伤害和退行性疾病的前景。通过利用isogenous干细胞的力量,科学家旨在开发创新的治疗方法,显著改善患者的预后。总之,术语isogenous涵盖了广泛的生物现象,从细胞发展到进化关系和生态互动。通过研究isogenous群体,研究人员获得了对支配地球生命的基本原则的宝贵见解。随着我们对遗传学和生物学理解的不断发展,isogenous群体的重要性无疑将继续成为一个关键研究领域,为未来的发现和科学与医学的进步铺平道路。